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Diffstat (limited to 'doc/www.anonet2.org')
-rw-r--r-- | doc/www.anonet2.org/public_pod/Makefile | 2 | ||||
-rw-r--r-- | doc/www.anonet2.org/public_pod/anonymity.pod | 385 | ||||
-rw-r--r-- | doc/www.anonet2.org/public_pod/darknet_comparison.pod | 19 |
3 files changed, 405 insertions, 1 deletions
diff --git a/doc/www.anonet2.org/public_pod/Makefile b/doc/www.anonet2.org/public_pod/Makefile index 15d1120..3c889bc 100644 --- a/doc/www.anonet2.org/public_pod/Makefile +++ b/doc/www.anonet2.org/public_pod/Makefile @@ -1,4 +1,4 @@ -all: index.html links.html faq.html darknet_comparison.html +all: index.html links.html faq.html darknet_comparison.html anonymity.html %.html: %.pod pod2html --noindex < $< 2>/dev/null > $@.tmp diff --git a/doc/www.anonet2.org/public_pod/anonymity.pod b/doc/www.anonet2.org/public_pod/anonymity.pod new file mode 100644 index 0000000..e556c5e --- /dev/null +++ b/doc/www.anonet2.org/public_pod/anonymity.pod @@ -0,0 +1,385 @@ +=head1 AnoNet2 - Anonymity & Pseudonymity + +Back to homepage - L<http://www.anonet2.org/> + +=head2 Introduction + +This page is intended to explain a bit of the theory behind anonymity +and pseudonymity. If your goal in joining AnoNet is to protect your +anonymity, this page may help you avoid some "leaks." + +=head2 Definition + +Anonymity translates literally into "having no name," and means having +no useful identification "marks" ("useful" being defined as "usable +for future find operations"). While it's technically possible to be +truly anonymous on AnoNet, true anonymity is not really necessary (nor +desirable) in order to achieve the goals that most guys here expect. +Pseudonymity ("having no real name") is what most of us are here to +achieve. (Most of us don't care if you can find us again on AnoNet +(and in fact, we normally _want_ you to). We only care if you can find +us _outside_ AnoNet.) However, the theory behind both is quite similar, +since the potential attacks against both are quite similar. Therefore, +this page primarily concerns itself with true anonymity on the assumption +that a certain amount of correlation between your actions is already +feasible for an attacker. + +=head2 Introduction to Triangulation + +The fundamental method that people use for identification is +triangulation, where we look at something from a bunch of different angles +and then narrow down our guesses to items that match that combination +of observations. For example, a duck is something that looks like +a duck, quacks like a duck, etc. It should go without saying, then, +that our goal here is to avoid others being able to apply triangulation +"against" us. That is, our goal is to prevent triangulation "attacks." + +=head2 Simple Triangulation + +If you see someone on a chatroom around 1800 GMT, and he tells you that +his mother just bought him some colourful pants when he got back from +school, it'd be a pretty safe bet to say that he probably: + +=over + +=item 1 + +is a kid (his mother buys him simple clothing items, after school) + +=item 2 + +in England (colourful == British spelling; pants == underpants) + +=item 3 + +who is actually a she (boys with colorful pants?) + +=back + +Now, obviously, if you found more details concerning the makeup of his +class, you may be able to narrow down the possibilities for his schools. +Combine that with his IP address, and you can focus on your candidates +within range of his geographical location. Perhaps he (she) talks about +his older brother walking him (her) to school in the morning, before +going to his own school. Well, in that case, you can be reasonably sure +that his older brother graduated from the same school "back in the day." +Given the fact that England's birth rate is relatively low, you can +therefore speculate that this bit of information is likely to narrow +down the possibilities (especially if he tells you how much older his +brother is). Another reasonably safe guess is that he's probably located +in a rather urban area. Now, you can add a bit of active triangulation +to the mix, by telling his ISP that his IP address has been sharing +your intellectual property. If the owners of that IP address really +do have a girl in primary school and your intellectual property sounds +like something oriented towards kids, the parents' first defense is +likely to be that they don't fileshare, so it was probably their kid (or +maybe some guy who drove by with wifi, who happens to like kid stuff). +(Obviously, if you're a civilian, your country is likely to have laws +against you committing fraud like that, but intelligence agencies +routinely do this type of thing, so it's worthwhile understanding some +of the options physically available to an attacker, even if they're not +"legally" available to him. You certainly don't want your anonymity +dependent on an adversary "playing by the rules," do you?) + +=head2 A Bit More Formality + +A very powerful science for dealing with these types of problems is +Mathematics, so we gain an advantage if we can translate our problems into +Mathematics (and our solutions out of it, of course). Our Mathematical +model for triangulation is similar to that of geolocating a cellular phone +that dials for emergency assistance. Initially, we can only say that +the cellular phone is likely to be someplace on (or near) planet Earth. +Since we know that the cellular signal deteriorates over distance and we +know (based on the phone's specifications) the original signal strength at +source, each tower can guage its distance from the phone by translating +backwards from its observed signal strength to meters. Most towers +are well out-of-range, and won't observe any measurable signal at all +(meaning an effectively infinite distance), while the nearby towers will +observe measurable signals. Now, each tower has a circle around it made +up of all the points at a particular distance from it. (Actually, it's a +three-dimensional sphere, but in our case, we're assuming the phone isn't +in flight or underground, for a bit of simplification. Real systems will +add an additional tower in order to triangulate in all three dimensions.) +Two intersecting circles will normally intersect (touch or cross over each +other) at two points. Three intersecting circles will rarely intersect +at more than a single point. Therefore, as long as the towers can safely +assume that the phone is broadcasting a uniform signal in all directions, +they can safely claim to have triangulated his position. + +Now, let's see if we can apply triangulation to our own problem space. +We know that there are approximately 6 billion people on our planet, +so we're starting out with a population of 6 billion candidates. +(Obviously, we're assuming that aliens don't have anything interesting to +do on our ICANN-dominated Internet, and so for all intents and purposes +don't count.) Now, there are many "dimensions" in which these people +are organized. (A dimension is simply a metric where each individual +has a potentially measurable coordinate.) For example, everybody has +a gender. Everybody lives in some country. Everybody has some level +of computer expertise, some level of Mathematical education, some set +of familiar authors, some set of favourite bands, some color skin and +some length hair, etc. Now, as you're able to intersect coordinates in +different dimensions, you can start eliminating unlikely candidates and +focusing on the likely ones. For example, the number of males is quite +high (on the order of 3 billion or so), the number of people in Portugal +is quite high, the number of 15-year-olds is quite high, the number of +stay-at-home parents is quite high, the number of people who are still +married to their first wife is quite high, and the number of parents with +two kids is quite high, but the number of Portuguese males around age 15 +who stay at home to care for their two kids while their first wife is out +working is very low (probably well under 1000 - low enough for you to be +able to go door-to-door looking for him, if you'd recognize him by face). +Clearly, by triangulating coordinates between a variety of dimensions, +we're able to take the intersection of a variety of sets, which is quite +small when the sets have little in common (which is normally true when +there's no causal relationship between the sets in question). + +Therefore, if you're that guy and you don't want others to find you, +you probably shouldn't give away too many facts about yourself. + +=head2 Countermeasures + +Remember when we talked about the cellular phone geolocation problem, +where we noted that the towers need to assume the phone is broadcasting +the same value (in this case, the same starting signal strength) in +all directions? Obviously, a phone without an omnidirectional antenna +could point a different directional antenna at each nearby (or even far +away) tower, and transmit a highly focused signal at an arbitrary power +level to each tower, and thereby confuse the towers. Alternatively, it +could even work backwards through the triangulation algorithm in order +to figure out a set of inputs that would cause the towers to geolocate +the phone "accurately" as being kilometers away from its true location. +It should come as no surprise, then, that similar techniques work in +our own problem space. For example, how do you know that the guy is +really male? Given the other dimensions, wouldn't you say he's more +likely to be a female? + +=head2 Verification + +Going back to our cellular phone geolocation problem, we left off +with our phone fooling the towers into thinking it's someplace else. +However, we didn't take into account that the towers themselves may +have directional antennas scanning around on a regular basis in order +to detect precisely this type of fraud. If the phone is supposed to be +southwest of one of our towers, why is its signal coming in from the east? +Not surprisingly, certain verification techniques may be applicable in +our own problem space. For example, suppose you somehow got a list of +all candidates, and then combed all of Portugal door-to-door looking +for the guy, and didn't find him? What if he told you that he was a +licensed pilot, but you couldn't find any pilot matching his description? +The goal of a verification algorithm is to assess the probability of +our data sources being correct. The goal of a verification algorithm +is to tell us how likely it is that we've been fooled, not to find the +right answer. (Obviously, a verification algorithm may itself reveal +additional information that we can then triangulate with. For example, +the towers employing directional antennas can geolocate our phone with +the directional antennas (using the law of intersecting lines), without +even relying on the omnidirectional antennas. Therefore, the verification +algorithm in this particular case not only verifies the likelyhood of the +triangulation, but actually provides its own alternative triangulation +dataset.) + +=head2 AnoNet + +On AnoNet, the single most important factor in securing your anonymity is +precluding verification. If an adversary can't verify his data about you, +then he's trivially vulnerable to countermeasures, making it difficult for +him to trust the results of his triangulation (and making it difficult, +therefore, for him to even justify the cost of triangulating in the +first place). + +For example, you probably don't want to recycle a nickname you +use elsewhere, since a simple Google search may give adversaries +a verification tool to use against anything they learn about you on +AnoNet. You also want to make sure that the public IP address you use +for peering doesn't geolocate your exact location (try MaxMind's online +tool, for example). A good way of getting around this one is to get a +VPS (Virtual Private Server) before peering with too many other guys. +There are plenty of cheap ones (well under 10EUR or 10USD each month), +and you can easily get a VPS in a different country. An even better +way of getting around this is to peer over i2p, if you don't mind +installing Java on your routers. If you're lucky, your ISP may +SNAT outgoing traffic from its users, giving you a certain amount of +"built-in" protection. If you're not comfortable giving a peer your IP +address and none of the above is an option, you may consider peering +using TCP over tor or something. In addition, it's also possible to +exchange data using DNS, so if each of you has access to a DNS server +and some method to automatically load TXT records into it, you can +tunnel a VPN over it without either of you giving away his IP address. +(This particular method can also get around restrictive firewalls, which +may be independently useful.) Other things you probably don't want +to advertise are your name (especially not your full name), location, +age, marital status, occupation, school, and hobbies. Under normal +circumstances, it's safest to assume that anything you tell anybody +on AnoNet may be used by anybody else on AnoNet for triangulation or +verification attacks, and so the only reliable method of preventing +these types of attacks is to avoid leaking any verifiable information +to anyone on AnoNet. When that's not feasible, try to avoid giving +multiple pieces of information to individuals. For example, if you're +coming in with UFO's CP, it's probably unwise to use his IRC server. +(It's also smart not to come onto IRC as soon as you connect, since +then UFO can guess that the guy who just joined IRC is probably the +same guy who just connected to his CP. To protect your anonymity from +the organizers of a darknet, it's imperative that you peer with someone +(preferably not an organizer) ASAP after joining. The more often you +come in through the CP, the higher the probability that an organizer +will find you. If you've come in over the CP more than a few times +before getting peered, you'll probably want to at least change your IRC +nickname before rejoining IRC after peering, so the darknet organizers +at least can't trivially connect your IcannNet IP address with your +AnoNet nickname. If a darknet's organizers try to put you through a +"hazing" period before they'll allow anybody to peer with you, that's +a strong indication that they don't care much for I<your> anonymity. +They may tell you that "nobody here trusts you enough yet to give you his +IP address," but that's (at best) just a thinly veiled way of saying that +"nobody here cares enough about your anonymity to have bothered to get +himself a VPS for peering." By making it difficult for new users to join, +they're effectively dooming their darknet into forever being a small and +incestuous club, a fraternity if you will, where everybody gradually gets +to know everybody else quite well (since static analysis works quite well +against rigid structures). An anonymity-preserving darknet makes it easy +for users to enter and exit at will, with the organizers keeping minimal +(or no) tabs, in order to resist static analysis.) + +=head2 AnoNet2 vs. The Competition + +AnoNet2 aims to provide the best anonymity feasible with TCP/IP, through +a variety of techniques: + +=over + +=item minimizing required direct information disclosure + +Most TCP/IP-based darknets require new users to submit a fair amount of +information up-front. Non-anonymizing darknets like dn42, for example, +expect users to sign up for a wiki account to register resources, to join +a mailing list for operational discussions, etc. (dn42, incidentally, +deserves special mention, as the resource database has recently been +migrated over to a decentralized resdb-like registry. In addition, +there's now an NNTP gateway to the mailing list reachable from inside +dn42, making it feasible to avoid giving away much information.) +So-called "anonymizing" darknets, by comparison, tend to turn these types +of expectations into policy requirements. A case in point is AnoNet1, +where new users are expected to go through a "hazing" process for 2-4 +weeks before anybody is supposed to peer with them. During the "hazing" +process, the new user is expected to answer questions like "what brings +you here?" from an informal panel of existing members, and is expected +to "participate in the discussion" for a couple of weeks to prove that +he's serious about joining AnoNet1. (The official excuses range from +avoiding "drive-by peerings" to preventing infiltration by law enforcement +officials. The former commands a high price relative to the nuisance +factor of a temporary peering, while the latter is just plain laughable.) +AnoNet1 also requires members to maintain their resource registrations +on a centralized wiki, making certain information available to crzydmnd. +There is only one official client port (run by Kaos), and users are +discouraged from setting up additional ones. AnoNet2 gets this part +right by making it very easy for new users to join, and to peer as early +as technically possible. + +=item avoiding centralization of critical infrastructure + +Most TCP/IP-based darknets have a fair amount of centralized +infrastructure. Centralized infrastructure is problematic, since it +creates a single point of control (or evesdropping), making it easy for +the operator to learn information that's not intended for him, and/or +alter transmissions that aren't intended for him. Typical examples are +things like resource databases, chatrooms, DNS, routing infrastructure, +documentation stores, forums, mailing lists, and public Web pages. +AnoNet1 is a model of centralized infrastructure, with centralized +mechanisms in-place for pretty much all of the above minus routing +(and even routing is quite centralized on AnoNet1, due to their peering +policies). Even dn42 (whose primary claim to fame is decentralization) +retains centralized mechanisms for IRC, wiki, mailing list, and public +Web pages. AnoNet2 has only a single point of centralization, in the +public Web pages here, and even they are easy for anybody on AnoNet2 to +modify (although there's still a centralized point of control over what +ends up getting published here and what doesn't, a point which has never +been used so far (a fact that's very easy to prove in a decentralized +way), and which will hopefully never be used). In addition, users are +encouraged to set up their own public Web pages and to put links to them +here, in order to further reduce centralization of AnoNet2's Web presence. +In addition to protecting your anonymity, this level of decentralization +makes it far more likely for AnoNet2 to survive a splitbrain condition +(where some bad guys take a number of central users out of the picture, +leaving a few disconnected fragments with critical services missing), +something that an anonymity-preserving darknet always has to plan for. +If AnoNet1 were to become split, the "non-central" side would most +likely wither away and die (a statistical fact that AnoNet1 used to +try and destroy AnoNet2 before it ever got off the ground), whereas if +AnoNet2 splits, the individual fragments should have no problem carrying +on indefinitely as independent darknets, and little difficulty merging +back together again if their paths cross at some point in the future. +What git and monotone do for software development, AnoNet2 does for +darknet development. + +=item not requiring resource registration + +AnoNet1 had a very powerful idea, of allowing people to mark a resource +"reserved" without specifying who has reserved it, but like most good +ideas in AnoNet1, this one also turned out incompatible with what +AnoNet1 has become. AnoNet2 takes this idea one step further: not only +can you easily leave out the "owner" field in a resource registration, +but you can even leave out the registration completely, and let someone +who happens to notice the resource in use (presumably, someone who's +scanning to make sure a resource is available before using it himself) +add it himself as "apparently in use." + +=item not requiring resource exclusivity + +In fact, AnoNet2 takes it a step further, by having no conflict resolution +policy for resources. This means two users can use the same IP address, +for example, and leave it up to routing to decide who "wins." (Under +normal circumstances that's not likely to happen, since at least one of +the users will almost certainly prefer to renumber rather than fighting +it out with the other guy. If they both want to fight it out, though, +there's no AnoNet2 rule that either of them is violating by refusing +to "talk it out," even if it's trivial to prove which guy's claim came +first.) This is intended to be useful during darknet merges, but it can +also aid in anonymity protection for cooperating users who agree among +themselves on some algorithm to determine who gets the resource when, +or perhaps they use the split routing to their advantage, SNATting (or +proxying) through each other for locations they can't reach directly +(or even for locations they I<can> reach directly, if they really +want to confuse an attacker - and themselves, if they're not careful). +The same thing goes for ASNs, domains, nicknames, etc. Static analysis +against any of these resource types is not guaranteed to yield useful +information (i.e., excessive triangulation may yield strange results), +and with only a little bit of coordination, a group of users can achieve +true anonymity, if that's really what they want. + +=item avoiding bandwidth requirements for peering + +Not everybody can afford a VPS, but everybody should be able to enjoy his +anonymity, not just as a leaf, but also as a transit. Conversely, many +users will want more path diversity, even if it means using slower links. +Therefore, AnoNet2 defines no rules about minimum bandwidth for peering. +Individual users can obviously do whatever they want, but there's no +official policy for them to use as an excuse. There's nothing wrong +with a transit node being on dial-up. If you prefer speed over path +diversity, just tell your router to avoid any path going through that ASN. +By the same token, if you have both VPSes and dial-up links and you want +to make it easy for people to implement different policies for routes +passing through each of them, it's probably wise to use different ASNs. + +=item avoiding I<all> censorship + +AnoNet1 officially sanctions some censorship, and unofficially practices +much more. The problem is that once you start complexifying the +definition of censorship, where do you draw the line? AnoNet2 has a very +simple definition of censorship: interfering with communications of which +you are not the (I<the>, not I<an>) intended recipient. AnoNet2 doesn't +impose anybody's morals (nor anybody's legal system) on you, so feel +free to communicate anything you want. If we don't like what you say, +we can always just ignore you. + +=item avoiding arbitrary restrictions on freedom + +Working around restrictions wastes resources, so those who are determined +to achieve their goals will still achieve them, while the rest of us +suffer the consequences of a legal framework. To avoid wasting your +resources working around AnoNet2 rules, AnoNet2 simply avoids defining +any rules. Anything goes. If you manage to annoy enough people (and +you'll probably have to put in a serious effort, if you really want to +annoy enough of us), you'll most likely wind up forking AnoNet2, which +is probably what you'd want in that case, anyway. + +=back diff --git a/doc/www.anonet2.org/public_pod/darknet_comparison.pod b/doc/www.anonet2.org/public_pod/darknet_comparison.pod index dddaff2..3629738 100644 --- a/doc/www.anonet2.org/public_pod/darknet_comparison.pod +++ b/doc/www.anonet2.org/public_pod/darknet_comparison.pod @@ -2,6 +2,25 @@ Back to homepage - L<http://www.anonet2.org/> +There are a number of darknets out there. Different darknets have +different features, which any individual may consider as advantages (or +disadvantages) depending on his goals. This page attempts to present +an accurate comparison between the different darknets known to SRN. +In particular, SRN has attempted to avoid being unjustly critical of +AnoNet1 even after having been a victim of AnoNet1's ugly side on multiple +occasions (although obviously, no attempt has been made to avoid "earned" +criticism). If you'd like to add other darknets to this table, keep +in mind that all of anonet2.org is freely editable from within AnoNet. +If none of the existing darknets suit your needs, you're encouraged +to advertise your new one here. You're also more than welcome to spam +AnoNet IRC for new members, but if your advertisements get redundant and +boring and redundant and repetitive and redundant after a while, don't +be surprised if people start b</ignore>ing you. (Please don't let that +discourage you, if you truly believe your new darknet is worth joining. +You may want to rethink your advertising strategy, though.) You may +also be able to get help in planning and/or building a new darknet on +AnoNet IRC. + =begin html <table> |